indexbuffer_t device_create_indexbuffer(device_t device,
enum gs_index_type type, void *indices, size_t num,
uint32_t flags)
{
struct gs_index_buffer *ib = bzalloc(sizeof(struct gs_index_buffer));
size_t width = type == GS_UNSIGNED_LONG ? sizeof(long) : sizeof(short);
ib->device = device;
ib->data = indices;
ib->dynamic = flags & GS_DYNAMIC;
ib->num = num;
ib->width = width;
ib->size = width * num;
ib->type = type;
ib->gl_type = type == GS_UNSIGNED_LONG ? GL_UNSIGNED_INT :
GL_UNSIGNED_SHORT;
if (!init_ib(ib)) {
blog(LOG_ERROR, "device_create_indexbuffer (GL) failed");
indexbuffer_destroy(ib);
return NULL;
}
return ib;
}
static int button_press(int button, int y, int x, t_fol *f)
{
if (button == 2)
f->j_mod = (f->j_mod == 0 ? 1 : 0);
if ((button == 4 && f->zoom < 8000000000000000) || button == 5)
{
if (button == 5)
f->zoom /= 1.1;
f->mid.x += f->curs.x * f->zoom * (button == 5 ? 0.1 : -0.1);
f->mid.y += f->curs.y * f->zoom * (button == 5 ? 0.1 : -0.1);
if (button == 4)
f->zoom *= 1.1;
f->i_max = f->type == 'b' || f->type == 'B' ? 50 : 100;
init_it(f);
init_ib(f);
}
return (x + y);
}
int init_fractol(t_fol *f)
{
f->zoom = WIN_H / 3;
f->mid.x = f->type == 'j' ? WIN_H / 2 : 2 * WIN_H / 3;
f->mid.y = WIN_W / 2;
f->ud = 0;
f->lr = 0;
f->zoom_io = 0;
f->color = 0;
f->j_param.x = 0;
f->j_param.y = 0;
f->i_max = f->type == 'b' || f->type == 'B' ? 50 : 100;
f->j_mod = 0;
f->i_mod = 0;
f->b_max = 0;
f->b_max1 = 0;
f->b_max2 = 0;
f->i_min = 0;
f->power = 2;
init_it(f);
init_ib(f);
return (1);
}
int rdma_library_init(void)
{
memset(&rdma_ib_device, 0, sizeof(rdma_ib_device));
init_ib();
return 0;
}